The parent function of linear function has a domain of all real numbers option (A) Linear is correct.
It is defined as a special type of relationship, and they have a predefined domain and range according to the function every value in the domain is related to exactly one value in the range.
The question is incomplete.
The complete question is:
Which of the following parent functions has a domain and range of all real:
Linear
Absolute Value
Quadratic
The linear function is:
f(x) = ax + c
Domain = all real numbers
Range = all real numbers
The absolute value function:
f(x) = |x|
Domain = all real number
Range = all positive real numbers
The quadratic function:
f(x) = ax² + bx + c
Domain = all real number
Range = all positive numbers
Thus, the parent function of linear function has a domain of all real numbers option (A) Linear is correct.
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The percentage is calculated by dividing the required value by the totalvalue and multiplying by 100.
Example:
Requiredpercentage value = a
totalvalue = b
Percentage = a/b x 100
100% = $60
35% = $21
The saleprice of the football is $21
The percentage is calculated by dividing the required value by the totalvalue and multiplying by 100.
Requiredpercentage value = a
totalvalue = b
Percentage = a/b x 100
Example:
50% = 50/100 = 1/2
25% = 25/100 = 1/4
20% = 20/100 = 1/5
10% = 10/100 = 1/10
We have,
Originalprice = $60
Sellingprice.
= 35% of $60
= 35/100 x 60
= 7 x 3
= $21
We can also find this way.
100% = $60
35% = 35/100 x $60
35% = $21
Thus,
100% = $60
35% = $21
The saleprice of the football is $21
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Answer:
Step-by-step explanation:
Answer:
Interval Enlargement, reduction, or no size change? Does the image rotate 180° about the center of dilation?
0 < n < 1 reduction no
n = 1 no size change no
n > 1 enlargement no
-1 < n < 0 reduction yes
n = -1 no size change yes
n < -1 enlargement yes
Step-by-step explanation:
42/4
DIVIDE THE TOP BY THE BOTTOM NUMBER. 42/4= 10 WITH 2 LEFT OVER
10 2/4 REDUCE BY DIVIDING BY 2
THE ANSWER IS 10 1/2
SORRY IT WOULD NOT LET ME EDIT
After subtracting the initial 5-minute cost from the total balance and dividing by the cost of additional minutes, you would have about 24 minutes remaining on your long-distance calling card when rounding to the nearest whole number.
To solve how many minutes you have remaining on your long-distance calling card, you'll first need to subtract the cost of the first 5-minute period from your total balance, which gives you $12.00 - $4.25 = $7.75.
Next, you would divide this amount by the cost of each additional minute which is $0.40. This calculation ( $7.75 / $0.40 ) results in a total of approximately 19.375 minutes.
Therefore, since you already have 5 minutes from the initial payment, you would add these two values together (5 + 19 = 24 minutes). But, according to the task you need to round your answer to the nearest whole number. As such, you can say you have approximately 24 minutes left on your card.
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To determine the number of minutes remaining on the calling card, subtract the cost of the first 5 minutes from the remaining balance and divide by the additional cost per minute. You have approximately 19 minutes remaining on the calling card.
To determine the number of minutes remaining on the calling card, we need to subtract the cost of the first 5 minutes from the remaining balance and then divide the result by the additional cost per minute.
Therefore, you have approximately 19 minutes remaining on the calling card.
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Answer:
Pretty sure it's B
Step-by-step explanation: